f01t300 product description - huawei usa canada partner
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F01T300
Product Description
Issue 03
Date 2018-08-22
HUAWEI TECHNOLOGIES CO., LTD.
Issue 03 (2018-08-22) Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
i
Copyright © Huawei Technologies Co., Ltd. 2018. All rights reserved.
No part of this document may be reproduced or transmitted in any form or by any means without prior
written consent of Huawei Technologies Co., Ltd.
Trademarks and Permissions
and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd.
All other trademarks and trade names mentioned in this document are the property of their respective
holders.
Notice
The purchased products, services and features are stipulated by the contract made between Huawei and
the customer. All or part of the products, services and features described in this document may not be
within the purchase scope or the usage scope. Unless otherwise specified in the contract, all statements,
information, and recommendations in this document are provided "AS IS" without warranties, guarantees or
representations of any kind, either express or implied.
The information in this document is subject to change without notice. Every effort has been made in the
preparation of this document to ensure accuracy of the contents, but all statements, information, and
recommendations in this document do not constitute a warranty of any kind, express or implied.
Huawei Technologies Co., Ltd.
Address: Huawei Industrial Base
Bantian, Longgang
Shenzhen 518129
People's Republic of China
Website: http://www.huawei.com
Email: [email protected]
F01T300
Product Description About This Document
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About This Document
Intended Audience
The F01T300 cabinet provides a medium-capacity outdoor solution.
This document describes the features, structure, configurations, specifications, environmental
requirements, and standards compliance of the F01T300 cabinet.
This document is intended for:
Network planning engineers
Installation and commissioning engineers
Field maintenance engineers
Network monitoring engineers
System maintenance engineers
Data configuration engineers
Application developers
Symbol Conventions
The symbols that may be found in this document are defined as follows:
Symbol Description
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avoided, will result in death or serious injury.
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avoided, could result in death or serious injury.
Indicates a potentially hazardous situation which, if not
avoided, may result in minor or moderate injury.
Indicates a potentially hazardous situation which, if not
avoided, could result in equipment damage, data loss,
performance deterioration, or unanticipated results.
NOTICE is used to address practices not related to
personal injury.
F01T300
Product Description About This Document
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Symbol Description
Indicates important information, best practices and tips.
NOTE is used to address information not related to
personal injury, equipment damage, and environment
deterioration.
Change History
Issue 03 (2018-08-22)
Compared with issue 02 (2017-12-15), this issue has the following updates:
Added the power meter box.
Modified the heat dissipation requirements of the F01T300 cabinet.
Issue 02 (2017-12-15)
Compared with issue 01 (2017-04-30), this issue has the following updates:
Added the description of the Li-ion battery and high temperature battery.
Added the power distribution principles and monitoring principles for the Li-ion battery
(optional configuration).
Issue 01 (2017-04-30)
This is the first release.
F01T300
Product Description Contents
Issue 03 (2018-08-22) Huawei Proprietary and Confidential
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Contents
About This Document .................................................................................................................... ii
1 Cabinet Applications .................................................................................................................... 1
2 Cabinet Feature .............................................................................................................................. 4
3 Appearance and Structure ........................................................................................................... 6
4 Cabinet Configurations ............................................................................................................. 19
4.1 F01T300 Cabinet Configured with MA5603T (MSAN) ............................................................................................ 19
4.2 F01T300 Cabinet Configured with MA5603T (OLT) ................................................................................................ 25
4.3 F01T300 Cabinet Configured with MA5800-X7 (OLT) ............................................................................................. 27
4.4 F01T300 Cabinet Configured with MA5616 .............................................................................................................. 29
5 Power Supply System ................................................................................................................ 33
5.1 Power Distribution Principle ...................................................................................................................................... 33
5.2 ETP4830 Power System ............................................................................................................................................. 37
5.3 ETP4890 Power System ............................................................................................................................................. 44
5.4 RPR006 Remote Side Power System (RFT-V) ........................................................................................................... 51
5.5 (Optional) Batteries .................................................................................................................................................... 56
5.6 TCB-B High temperature Battery ............................................................................................................................... 58
5.7 TCB-C High temperature Battery ............................................................................................................................... 61
5.8 ESM-4850A2 / ESM-4875A1 Li-ion Battery (Optional) ........................................................................................... 63
5.9 AC PDU ...................................................................................................................................................................... 69
5.10 DPD50-3-5S DC PDU .............................................................................................................................................. 73
5.11 Maintenance Socket .................................................................................................................................................. 76
5.12 Power Meter Box (optional) ..................................................................................................................................... 77
6 Monitoring System ..................................................................................................................... 80
6.1 Monitoring Principle ................................................................................................................................................... 80
6.2 CCU ............................................................................................................................................................................ 85
6.3 MUE02A Sensor Transfer Box ................................................................................................................................... 86
6.4 Fan Control Board ...................................................................................................................................................... 89
6.5 Sensor ......................................................................................................................................................................... 91
6.5.2 Door Status Sensor................................................................................................................................................... 92
6.5.3 (Optional) Battery Temperature Sensor (NTC Type) ............................................................................................... 93
F01T300
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6.5.4 Environment Temperature Sensor (NTC Type) ....................................................................................................... 94
6.5.5 (Optional) Smoke Sensor ......................................................................................................................................... 95
6.5.6 (Optional) Water Sensor .......................................................................................................................................... 96
7 Temperature Control System .................................................................................................... 99
7.1 Temperature Control Principle .................................................................................................................................... 99
7.2 Temperature Control Unit ......................................................................................................................................... 100
7.2.1 175 mm Cabinet Fan .............................................................................................................................................. 101
7.2.2 (Optional) HAU03A-01 Intelligent Heating Module ............................................................................................. 102
8 Cable Distribution System ...................................................................................................... 103
8.1 Cable Distribution Principle ..................................................................................................................................... 103
8.2 Cable Distribution Unit ............................................................................................................................................. 108
8.3 MDF ......................................................................................................................................................................... 111
8.3.1 JPX658-STO-236X Exchange Side Terminal Block ............................................................................................. 111
8.3.2 JPX658-FA8-239X Cable Side Terminal Block .................................................................................................... 112
8.3.3 JPX658-FA10-97 Protective Unit .......................................................................................................................... 113
8.3.4 JPX658-BLK2-E10V Terminal Block ................................................................................................................... 114
8.3.5 JPX658-SPD2-G400T Protective Unit .................................................................................................................. 115
8.3.6 JPX658-FA9-280J Protective Unit......................................................................................................................... 116
8.3.7 JPX658 Short-Circuit Plug .................................................................................................................................... 117
8.4 ODF .......................................................................................................................................................................... 118
8.4.1 12-core Integrated Splicing and Termination Tray (Upstream) ............................................................................. 118
8.4.2 12-core Integrated Splicing and Termination Tray (Downstream)......................................................................... 119
8.4.3 32-core Integrated Splicing and Termination Tray (Downstream)......................................................................... 121
9 Specifications ............................................................................................................................. 123
10 Environmental Requirements............................................................................................... 126
11 Standards Compliance ........................................................................................................... 128
A Acronyms and Abbreviations ................................................................................................ 130
F01T300
Product Description 1 Cabinet Applications
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1 Cabinet Applications
The F01T300 cabinet can be configured with MA5800-X7, MA5603T and MA5616 service
units. It can be configured with different built-in service boards to provide GPON, POTS,
xDSL, vectoring, SuperVector and GE (P2P) services.
Product Positioning The F01T300 cabinet applies to global markets except North America. It provides the
battery backup or remote power for areas with unstable mains supply.
The F01T300 cabinet is a sealed cabinet and mainly applies to outdoor scenarios. For
example, it can be deployed in residential communities, urban streets, and village fields.
The F01T300 cabinet provides an outdoor medium-capacity solution, supporting
maximum of 384 channel copper service, 192 PON ports or 336 GE (P2P) ports.
Figure 1-1 shows the positions of the F01T300 cabinet in the overall network solution.
F01T300
Product Description 1 Cabinet Applications
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Figure 1-1 Application of the F01T300 cabinet in the overall network solution
Cabinet Installation
The F01T300 cabinet can be installed on a concrete pedestal or an elevated platform. The
cabinet is configured with lifting rings. Therefore, it can be hoisted in a safe and reliable way,
and installed easily.
Figure 1-2 shows the F01T300 cabinet installed on a concrete pedestal and an elevated
platform.
F01T300
Product Description 1 Cabinet Applications
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Figure 1-2 F01T300 cabinet installed on a concrete pedestal and an elevated platform.
F01T300
Product Description 2 Cabinet Feature
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2 Cabinet Feature
The F01T300 cabinet is a front-access sealed cabinet for outdoor applications, effectively
ensuring reliable running of the service units inside.
High Security Prominent performance in electromagnetic compatibility (EMC) and anti-attack
IP55 enclosed-type design effectively isolates external harmful dust or gases that may
cause corrosion.
Level-based maintenance by isolating the equipment compartment from the cable
distribution compartment (these two compartments have different door locks and support
external locks to provide better security)
Excellent performance in anti-theft by fastening bolts at the bottom inside the cabinet
Provides a maximum of 40 kA surge protection capability for more secure outdoor use.
Prominent performance in heat dissipation, and can run in the high temperature areas
(50°C + solar radiation).
The battery anti-theft component (optional) prevents batteries from being damaged and
being stolen, prolonging the battery lifetime and installation reliability.
Convenient Maintenance Components inside the equipment compartment of the F01T300 cabinet are
front-serviceable.
The built-in main distribution frame (MDF) in the cable distribution compartment of the
F01T300 cabinet supports wire seating from the front side. The built-in optical
distribution frame (ODF) supports pre-deployment of device-side optical ports and fibers,
user-side external optical cable splicing, and device-side and user-side (internal and
external) fiber patching.
The F01T300 cabinet provides a portable illuminator, facilitating nighttime maintenance.
The AC maintenance socket inside the F01T300 cabinet supplies power to an external
maintenance terminal. The folder on the cabinet door can be unfolded to function as a
console, onto which the maintenance terminal can be placed for onsite maintenance.
The F01T300 cabinet supports shell replacement without service interruption.
Intelligent Monitoring Supports monitoring on the cabinet and internal components by using the EMU and
U2000.
F01T300
Product Description 2 Cabinet Feature
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Supports remote electronic door lock management to improve site security and reduce
site maintenance costs.
One-stop delivery The F01T300 cabinet is integrated with service, power supply, monitoring, temperature
control, and cable distribution units. This design minimizes the installation costs and
space. The F01T300 cabinet can be installed quickly onsite to satisfy the demand for
quick deployment.
The sealed design protects the F01T300 cabinet against dust, moisture, and rain, and
ensures reliable running in harsh environment.
Supports both remote power supply and AC power supply (generator interface reserved).
The battery power backup or remote power supply ensures the normal running of the
F01T300 cabinets used in areas with unstable mains supply.
Simple Evolution Supports copper wires, fibers, and the hybrid configuration of copper wires and fibers to
facilitate future network evolution.
Supports extended modular design for space expansion, meeting service expansion
requirements. Also, it supports top box or side-by-side cabinet installation for service
configuration expansion, prolonging backup duration.
F01T300
Product Description 3 Appearance and Structure
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3 Appearance and Structure
The F01T300 cabinet consists of the equipment compartment, cable distribution compartment,
and battery compartment.
Appearance
The surface of the F01T300 cabinet adopts the outdoor powder coating technique, well
protecting the cabinet against corrosion. The coating color code is RAL7035.
Figure 3-1 Appearance of the F01T300 cabinet
F01T300
Product Description 3 Appearance and Structure
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Structure
Three compartments (equipment compartment, cable distribution compartment, and battery
compartment) are assembled into the F01T300 cabinet.
The F01T300 cabinet has a frame structure and is made of extruded aluminum profile. This
allows the cabinet to support flexible upgrade and expansion of functional modules without
site relocation.
F01T300
Product Description 3 Appearance and Structure
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Figure 3-2 Structure of the F01T300 cabinet (configured with MA5603T and an ETP4830 power
system)
F01T300
Product Description 3 Appearance and Structure
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Figure 3-3 Structure of the F01T300 cabinet (configured with MA5603T and an ETP4890 power
system)
F01T300
Product Description 3 Appearance and Structure
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Figure 3-4 Structure of the F01T300 cabinet (configured with MA5800-X7 and an ETP4890
power system)
F01T300
Product Description 3 Appearance and Structure
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Figure 3-5 Structure of the F01T300 cabinet (configured with MA5616 and an ETP4830 power
system)
F01T300
Product Description 3 Appearance and Structure
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Figure 3-6 Structure of the F01T300 cabinet (configured with MA5616 and an ETP4890 power
system)
F01T300
Product Description 3 Appearance and Structure
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Figure 3-7 Structure of the F01T300 cabinet (configured with MA5616 and remote power
system)
Figure 3-8 Structure of the F01T300 cabinet (configured with MA5603T and remote power
system)
F01T300
Product Description 3 Appearance and Structure
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Door Lock
By default, the F01T300 cabinet is configured with an HW-2802 door lock (HW-2801 lock
cylinder + HW-2802 lock body). Alternatively, the F01T300 cabinet can be configured with
an electronic door lock to provide better protection for devices inside the cabinet.
HW-2802 Door Lock
The F01T300 cabinet is configured with HW-2802 door locks (specifically, HW-2802A for
the equipment compartment and HW-2802B for the cable distribution compartment). These
locks are configured with different keys, meeting customer demands for level-based
maintenance.
The HW-2802 door lock has the following features:
Supports internal installation and removal. Bolts are fastened inside the cabinet and no
part is exposed outside.
Provides a three-point (upper head, lower head, and tongue) structure to protect against
prying from the side cover.
Provides an interface for an external lock, which ensures better theft-resistance.
Provides a European-standard cylinder lock that is easy to replace and complies with the
DIN 18252 (a German industrial standard).
Complies with IPX5 defined in the IEC 529 standard "Degrees of protection provided by
enclosures (IP code)."
Complies with theft-resistance rating three in anti-of the DD ENV 1627-1999 and
LPS1175 Issue 5.2 Security Rating 2 and SEAP Class 1.
Provides a protective cover for the lock cylinder, protecting the lock cylinder from being
blocked by foreign objects. The protective cover provides reliable protection, convenient
rotation, and anti-freezing function.
Provides corrosion protection and complies with IEC 68-2-52. It passes the 10-day test
Kb (salt mist, cyclic). In each round of test, salt and mist are sprayed on the lock for two
hours and then the lock is placed in a hot and humid environment for 20 to 22 hours.
This test is repeatedly performed for 10 rounds (10 consecutive days).
Supports at least 5000 locking cycles.
Figure 3-9 shows the appearance of the HW-2802 door lock.
F01T300
Product Description 3 Appearance and Structure
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Figure 3-9 Appearance of the HW-2802 door lock
(Optional) Electronic Door Lock
The electronic door lock with a CCU provides site security management:
Near-end unlocking by using a card and remote unlocking on the NMS
Door status detection or moving object detection associated with an audio alarm
Retrievable unlocking records
Real-time unlocking event reporting
Report export from the NMS
F01T300
Product Description 3 Appearance and Structure
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The preceding management can be implemented at a basis of a site, engineer, or compartment
door, effectively preventing internal thefts.
The electronic door lock is compatible with the HW-2802 door lock. Figure 3-10 shows the
appearance of the electronic door lock. For details, see Intelligent Site Product Description.
Figure 3-10 Appearance of the electronic door lock
Table 3-1 describes indicators of an electronic door lock.
Table 3-1 Indicators of an electronic door lock
Indicator Status Status Description
Green Off The lock is locked.
Steady on The lock is unlocked and the lock handle is
lifted.
Blinks slowly at 0.5 Hz The lock is unlocked and the lock handle is not
lifted.
Blinks quickly at 4 Hz Software loading is in process. During this
loading, the lock cannot be performed.
Red Off The lock is normal.
Steady on Undefined.
Blinks slowly at 0.5 Hz The access card is not authenticated.
Blinks quickly at 4 Hz The association structure of the lock is faulty.
F01T300
Product Description 3 Appearance and Structure
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NOTE
When the lock is powered on or reset for self-check, the indicators (red and green) are on for 0.25s.
Table 3-2 describes specifications of an electronic door lock.
Table 3-2 Specifications of an electronic door lock
Item Standard
Operating environment ETSI300 019-1-4 CLASS4.1E
Operating temperature: –40°C to +65°C (without solar
radiation)
Relative humidity: 5% to 100% RH
Storage temperature ETSI 300 019-1-1 CLASS 1.2
Storage temperature: –40°C to +70°C
Relative humidity: 5% to 100% RH
Transportation
conditions ETSI 300 019-2-2 CLASS 2.3
Transportation temperature: –40°C to +70°C
Relative humidity: 5% to 100% RH
Operating altitude –60 m to +4000 m
IP protection level Degrees of protection provided by enclosures(IP code): IP55
(If the lock is installed on the cabinet door, the external jetting
complies with IPX5 and internal complies with IPX1.)
Anti-theft capability LPS1175 Issue5.2 Security rating2
Anti-freezing capability 3R in UL-50 34
Flame-retardant rating UL94-V0
Environment protection RoHS and WEEE
Safety IEC/EN/UL 60950-1 Information technology
equipment-Safety-Part 1: General Requirements GR1089 and
GR63
(Optional) Battery Anti-theft Component
The battery anti-theft component prevents batteries from being damaged and being stolen,
prolonging the battery lifetime and installation reliability.
F01T300
Product Description 3 Appearance and Structure
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Figure 3-11 Battery anti-theft component
F01T300
Product Description 4 Cabinet Configurations
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4 Cabinet Configurations
When the AC power supply and electronic door locks are used in F01T300 cabinet, and you need to
select CCU, the CCU will occupy the 1U installation space.
4.1 F01T300 Cabinet Configured with MA5603T (MSAN)
This topic describes the layout of the F01T300 cabinet configured with MA5603T (MSAN).
F01T300
Product Description 4 Cabinet Configurations
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Figure 4-1 Layout of the F01T300 cabinet (providing only copper access and configured with an
ETP4830 power system)
F01T300
Product Description 4 Cabinet Configurations
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Figure 4-2 Layout of the F01T300 cabinet (providing only copper access and configured with an
ETP4890 power system)
F01T300
Product Description 4 Cabinet Configurations
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Figure 4-3 Layout of the F01T300 cabinet (providing integrated fiber and copper access and
configured with an ETP4830 power system)
Figure 4-4 Layout of the F01T300 cabinet (providing integrated fiber and copper access and
configured with an ETP4890 power system)
F01T300
Product Description 4 Cabinet Configurations
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F01T300
Product Description 4 Cabinet Configurations
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Figure 4-5 Layout of the F01T300 cabinet (providing only copper access and configured with an
RPS system)
F01T300
Product Description 4 Cabinet Configurations
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Figure 4-6 Layout of the F01T300 cabinet (providing integrated fiber and copper access and
configured with an RPS system)
4.2 F01T300 Cabinet Configured with MA5603T (OLT)
This topic provides the layout of the F01T300 cabinet configured with MA5603T (OLT).
F01T300
Product Description 4 Cabinet Configurations
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Figure 4-7 Layout of the F01T300 cabinet configured with MA5603T (providing only PON
access and configured with an ETP4890 power system)
F01T300
Product Description 4 Cabinet Configurations
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Figure 4-8 Layout of the F01T300 cabinet configured with MA5603T (providing only P2P access
and configured with an ETP4890 power system)
4.3 F01T300 Cabinet Configured with MA5800-X7 (OLT)
This topic provides the layout of the F01T300 cabinet configured with MA5800-X7 (OLT).
F01T300
Product Description 4 Cabinet Configurations
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Figure 4-9 Layout of the F01T300 cabinet configured with MA5800-X7 (providing only PON
access and configured with an ETP4890 power system)
F01T300
Product Description 4 Cabinet Configurations
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Figure 4-10 Layout of the F01T300 cabinet configured with MA5800-X7 (providing only P2P
access and configured with an ETP4890 power system)
4.4 F01T300 Cabinet Configured with MA5616
This topic describes the layout of the F01T300 cabinet configured with MA5616.
A maximum of three MA5616s can be configured in the F01T300 cabinet as required.
F01T300
Product Description 4 Cabinet Configurations
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Figure 4-11 Layout of the F01T300 cabinet configured with MA5616 (configured with ETP4830
power system)
F01T300
Product Description 4 Cabinet Configurations
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Figure 4-12 Layout of the F01T300 cabinet configured with MA5616 (configured with ETP4890
power system)
F01T300
Product Description 4 Cabinet Configurations
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Figure 4-13 Layout of the F01T300 cabinet configured with MA5616 (configured with remote
power system)
F01T300
Product Description 5 Power Supply System
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5 Power Supply System
5.1 Power Distribution Principle
General Power Distribution (When an ETP4830 Power System and Batteries Are Used)
The AC power cable is led into the cabinet from the bottom of the battery compartment, and
then connected to the mains AC circuit breaker or diesel generator AC circuit breaker inside
the AC PDU. The AC PDU divides the power supply into the following channels:
One channel supplies power to the maintenance socket.
One channel supplies power to intelligent heating modules of the battery compartment.
One channel supplies power to intelligent heating modules of the equipment
compartment.
One channel after being converted to DC power supply by the ETP4830 power system,
supplies power to the service unit, fan control board, and illuminator through the DC
PDU. The ETP4830 power system also provides 1 output for the DC PDU for
connecting to a battery set. In this way, the ETP4830 power system is able to manage the
battery set.
F01T300
Product Description 5 Power Supply System
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Figure 5-1 General power distribution of the F01T300 cabinet (configured with an ETP4830
power system and batteries)
General Power Distribution (When an ETP4890 Power System and Batteries Are Used)
The AC power cable is led into the cabinet from the bottom of the battery compartment, and
then connected to the mains AC circuit breaker or diesel generator AC circuit breaker inside
the AC PDU. The AC PDU divides the power supply into the following channels:
One channel supplies power to the maintenance socket.
One channel supplies power to intelligent heating modules of the battery compartment.
One channel supplies power to intelligent heating modules of the equipment
compartment.
One channel after being converted to DC power supply by the ETP4890 power system, supplies power to the service unit, fan control board, and illuminator. The ETP4890
F01T300
Product Description 5 Power Supply System
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power system also provides 1 output for connecting to a battery set. In this way, the
ETP4890 power system is able to manage the battery set.
Figure 5-2 General power distribution of the F01T300 cabinet (configured with an ETP4890
power system and batteries)
General Power Distribution (When an ETP4890 Power System and Li-ion Batteries Are Used)
The AC power cable is led into the cabinet from the bottom of the battery compartment, and
then connected to the mains AC circuit breaker or diesel generator AC circuit breaker inside
the AC PDU. The AC PDU divides the power supply into the following channels:
One channel supplies power to the maintenance socket.
One channel supplies power to intelligent heating modules of the battery compartment.
F01T300
Product Description 5 Power Supply System
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One channel supplies power to intelligent heating modules of the equipment
compartment.
One channel after being converted to DC power supply by the ETP4890 power system,
supplies power to the service unit, fan control board, and illuminator. The ETP4890
power system also provides 1 output for connecting to 1 or 2 Li-ion battery sets. In this
way, the ETP4890 power system is able to manage the Li-ion battery sets.
Figure 5-3 General power distribution of the F01T300 cabinet (configured with an ETP4890
power system and Li-ion batteries)
Power Distribution Principle (When an RPR Is Used)
High-voltage DC power flows into the cabinet from the bottom of the main distribution frame
(MDF) and is fed to the RPR MDF terminal block and then to the RPR. High-voltage DC
converted to -53.5 V DC power supply by the RPR, supplies power to the DC PDU. The DC
PDU divides the input power into the following channels.
F01T300
Product Description 5 Power Supply System
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One channel supplies power to the service device.
One channel supplies power to the illuminator.
One channel supplies power to the fans for the internal and external cycles through the
temperature control board.
One channel supplies power to the CCU.
Figure 5-4 General power distribution of the F01T300 cabinet (Configured with an RPR)
5.2 ETP4830 Power System
An AC-powered cabinet uses the ETP4830 power system to convert the AC power to the DC
power for power distribution. The small and modular ETP4830 power system supports easy
installation and maintenance, effective LCD interface management, and excellent security
specifications design. The power system supports a maximum of 30 A output current.
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Function
The ETP4830 power system supports the following functions:
Converts AC input to DC inputs and provides the DC inputs for communication devices.
Communicates with the upper device using a COM or an RS485/RS232 serial port;
sends control signals based on the values of monitored parameters or the control
command sent by the upper device; detects power distribution parameters, power supply
module parameters, and auxiliary digital parameters in real time.
Connects to one group of lead acid batteries and uses a site monitoring unit (SMU) to
manage the batteries. Manages battery charging and discharging, ensuring efficient
battery usage.
Connects to a sensor transfer box using a DB50 port, detecting analog parameters and
digital parameters, and outputting control signals.
Uses the SMU to monitor all running parameters for the ETP4830 power system in real
time, determines the working status, and reports alarms in a timely manner.
Appearance
Figure 5-5 shows the appearance of the ETP4830 power system.
Figure 5-5 ETP4830 power system
Configuration
Table 5-1 describes the components of the ETP4830 power system.
Table 5-1 Component configuration of the ETP4830 power system
Component Configuration
ETP4830-A1 AC and DC power
distribution subrack
1
Monitoring module SMU01B 1
Power supply module R4815N1/R4815G1 1 to 2 (optional; by default, the R4815N1 is
configured)
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The ETP4830 power system can be configured with two power supply modules, which are
connected in parallel for output.
Table 5-2 shows the mapping between the quantity of power supply modules in the ETP4830
power system and the maximum output current.
Table 5-2 Mapping between the quantity of power supply modules of the ETP4830 power system
and the maximum output current
Quantity of Power Supply Modules Maximum Output Current
1 15 A
2 30 A
Communication Ports on the SMU01B Monitoring Module
Table 5-3 describes the communication ports on the SMU01B monitoring module. A user can
set the baud rate of the device using the LCD interface of the monitoring module. The baud
rates 9600 bit/s and 19200 bit/s are automatically negotiated.
Table 5-3 Communication ports on the SMU01B monitoring module
Communication Port
Communication Mode
Communication Parameter
Description
COM RS485/RS232 Baud rate: 19200
bit/s or 9600 bit/s
Used as a serial port,
communicating with
the upper device
RS485/RS232 RS485/RS232 Baud rate: 19200
bit/s or 9600 bit/s
Used as a serial port,
supporting the
northbound/southbo
und communications
Indicators
Table 5-4 describes the indicators on the R4815N1 power supply module.
Table 5-4 Indicators on the R4815N1 power supply module
Indicator Color Status Description
Power indicator Green Steady on Normal
Off There is no AC
input.
Blinking at a
frequency of 0.5 Hz
There is AC input,
and the power
supply module is in
the manual query
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Indicator Color Status Description
state.
Blinking at a
frequency of 4 Hz
Data is being loaded
online.
Alarm indicator Yellow Steady on A protection
mechanism is
triggered. After the
fault is rectified, the
PSU can be restored.
Blinking Communication
between the PSU
and the SMU is
interrupted.
Off Normal
Fault indicator Red Steady on An unrecoverable
fault occurs.
Off Normal
Blinking The power supply
module equipped
with the EMU does
not match the actual
power supply
module.
Table 5-5 describes the indicators on the SMU01B monitoring module.
Table 5-5 Indicators on the SMU01B monitoring module
Indicator Color Status Description
RUN Green Off The monitoring
module is faulty or
there is no DC
power input.
Blinking at a
frequency of 0.5 Hz
The monitoring
module is working
properly and
communicating with
the upper device
properly.
Blinking at a
frequency of 4 Hz
The monitoring
module works
properly but does
not communicate
with the upper
device properly.
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Indicator Color Status Description
ALM Red Off The system does not
generate any urgent
or critical alarms.
Steady on The system
generates urgent or
critical alarms.
Input Terminal
The ETP4830 power system supports one 110 V AC or 220 V AC input and connects to an
AC input cable. Figure 5-6 shows the input terminals in the ETP4830 power system.
Figure 5-6 Input terminals in the ETP4830 power system
Output Terminal
The ETP4830 power system supports three output terminals. The two pins on the left of the
output terminal are the output positive pole and the two pins on the right of the output
terminal are the output negative pole.
Figure 5-7 shows the output terminals in the ETP4830 power system.
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Figure 5-7 Output terminals in the ETP4830 power system
Figure 5-8 shows the output branch fuse in the ETP4830 power system.
Figure 5-8 Output branch fuse in the ETP4830 power system
Table 5-6 shows the mapping between the fuses of the output tributaries and the load
tributaries.
Table 5-6 Mapping between the fuses of the output tributaries and the load tributaries
Fuse of the Output Tributary Load Tributary
FU-1 (20 A) LOAD1 (20 A)
FU-2 (20 A) LOAD2 (20 A)
FU-BT (20 A) BATT (20 A), used for connecting to batteries
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Specifications
Table 5-7 lists the specifications of the ETP4830 power system.
Table 5-7 Specifications of the ETP4830 power system
Parameter Class Parameter Description
Conditions Operating
environment
temperature
–40°C to +70°C
NOTE
The power system can work at a temperature of
70°C for 8 hours.
Operating
environment
humidity
5% to 95% (no condensation)
Altitude 0 m to 4000 m
(Note that in the range of 2000 m to 4000 m,
the operating temperature decreases by 1°C
when the altitude increases by 200 m.)
AC input Mode mono-phase
Voltage 85 V AC to 300 V AC (rated value: 220 V)
Frequency 45 Hz to 66 Hz (rated value: 50 Hz)
Power factor ≥ 0.99 in the case of a rated load
Power supply
module peak
efficiency
R4815N1: 94%
R4815G1: 96%
DC output Voltage -42 V to -58 V
Default voltage -53.5 V
Maximum power R4815N1: R481N1: 2000 W (input
voltage: 176 V AC to 300 V AC; if the
temperature is higher than 55°C, power
decreases linearly); 1000 W (input voltage:
85 V AC to 175 V AC; if the temperature
is higher than 55°C, power decreases
linearly)
R4815G1: 1740 W (input voltage: 176 V
AC to 300 V AC; if the temperature is
higher than 55°C, power decreases
linearly); 870 W (input voltage: 85 V AC
to 175 V AC; if the temperature is higher
than 55°C, power decreases linearly)
NOTE
Maximum output power of the system = Number of
the configured power supply modules x Output
power of each power supply module
Regulated voltage ≤ ±0.6%
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Parameter Class Parameter Description
precision
Peak noise voltage ≤ 200 mV (0 MHz to 20 MHz)
Structure Dimensions (H x W
x D) without
brackets
43.6 mm x 442 mm x 255 mm
Weight ≤ 8 kg (including modules)
Protection class IP20
Installation mode Installed in an IEC cabinet or an ETSI cabinet
with brackets
Maintenance mode Front access
Cooling method Forced air cooling, with the built-in fan in the
power supply module
5.3 ETP4890 Power System
An AC-powered cabinet uses the ETP4890 power system to convert the AC power to the DC
power for power distribution. The small and modular ETP4890 power system supports easy
installation and maintenance and effective LCD interface management. The power system
supports a maximum of 90 A output current.
Function
The ETP4890 power system supports the following functions:
Converts AC power to DC power and provides the DC power for communication
devices.
Communicates with the upper device using a COM or an RS485/RS232 serial port;
sends control signals based on the values of monitored parameters or the control
command sent by the upper device; detects power distribution parameters, power supply
module parameters, and auxiliary digital parameters in real time.
Connects to one to two groups of lead acid batteries and uses a monitoring module to
manage the batteries; provides complete management for battery charging and
discharging, ensuring efficient battery usage.
Connects to a sensor transfer box using a DB50 port, detecting analog parameters and
digital parameters, and outputting control signals.
Uses a monitoring module to monitor all running parameters for the ETP4890 power
system in real time; determines the working status; reports alarms in a timely manner.
Clearly displays the monitoring and alarm information on the liquid crystal display (LCD)
of the monitoring module; allows operations such as parameter setting on the LCD of the
monitoring module.
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Appearance
Figure 5-9 shows the appearance of the ETP4890 power system.
Figure 5-9 ETP4890 power system
Configuration
Table 5-8 lists the components of the ETP4890 power system.
Table 5-8 Component configuration of the ETP4890 power system
Component Quantity
AC and DC power distribution subrack 1
Monitoring module 1
Power supply module R4830N1/R4830G1 1 to 3 (optional; by default, the R4830N1 is
configured)
The ETP4890 power system can be configured with three power supply modules, which are
connected in parallel for output.
Table 5-9 shows the mapping between the quantity of power supply modules in the ETP4890
power system and the maximum output current.
Table 5-9 Mapping between the quantity of power supply modules of the ETP4890 power system
and the maximum output current
Quantity of Power Supply Modules Maximum Output Current
1 30 A (at 55°C)
25 A (at 60°C)
2 60 A (at 55°C)
50 A (at 60°C)
3 90 A (at 55°C)
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Quantity of Power Supply Modules Maximum Output Current
75 A (at 60°C)
Communication Ports on the Monitoring Module
Table 5-10 lists the communication ports on the monitoring module. A user can set the baud
rate of the device using the LCD interface of the monitoring module.
Table 5-10 Communication ports on the monitoring module
Communication Port
Communication Mode
Communication Parameter
Description
COM RS485/RS232 Baud rate: 9600 bit/s
or 19200 bit/s
Used as a serial port,
communicating with
the upper device
RS485/RS232 RS485/RS232 Baud rate: 9600 bit/s
or 19200 bit/s
Used as a serial port,
supporting the
northbound/southbo
und communications
By default, the ETP4890 power system is equipped with a monitoring module, which is capable of the
inband management (SMU01B). The COM port cannot be used as a network port.
Indicators
Table 5-11 lists the indicators on the power supply module of the ETP4890 power system.
Table 5-11 Indicators on the power supply module of the ETP4890 power system
Indicator Color Status Description
Power indicator Green Steady on Normal
Blinking at a
frequency of 0.5 Hz
There is AC input,
and the power
supply module is in
the manual query
state.
Blinking at a
frequency of 4 Hz
Data is being loaded
online.
Off There is no AC
input.
Alarm indicator Yellow Steady on A protection
mechanism is
triggered. After the
fault is rectified, the
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Indicator Color Status Description
power supply
module can be
restored to the
normal state.
Blinking Communication
between the power
supply module and
the site monitoring
module is
interrupted.
Off Normal
Fault indicator Red Steady on An unrecoverable
fault occurs.
Blinking The power supply
module equipped
with the EMU does
not match the actual
power supply
module.
Off Normal
Table 5-12 lists the indicators on the monitoring module.
Table 5-12 Indicators on the monitoring module
Indicator Color Status Description
RUN Green Off The monitoring
module is faulty or
there is no DC
power input.
Blinking at a
frequency of 0.5 Hz
The monitoring
module is working
properly and
communicating with
the upper device
properly.
Blinking at a
frequency of 4 Hz
The monitoring
module works
properly but does
not communicate
with the upper
device properly.
ALM Red Off The system does not
generate any critical
alarms.
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Indicator Color Status Description
Steady on The system
generates critical
alarms.
Input Terminal
The ETP4890 power system supports one 220 V AC or 110 V AC dual live wires input.
Figure 5-10 shows the input terminals in the ETP4890 power system.
Figure 5-10 Input terminals in the ETP4890 power system
Output Terminal
The ETP4890 power system supports eight groups of output terminals. The left-side eight
output terminals are negative and the right-side eight output terminals are positive.
Figure 5-11 shows the output terminals in the ETP4890 power system.
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Figure 5-11 Output terminals in the ETP4890 power system
Table 5-13 lists the cable connections of the output terminals.
Table 5-13 Cable connections of the output terminals
Port Load Tributary Circuit Breaker
LOAD1 Illuminator 10 A
LOAD2 Electronic door lock
monitor system/Battery
monitor management system
30 A
LOAD3 Service subrack 40 A
LOAD4 Service subrack/Reserved 40 A
BATT Batteries 80 A
Figure 5-12 shows the output branch circuit breaker in the ETP4890 system.
Figure 5-12 Output branch circuit breaker in the ETP4890 system
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Specifications
Table 5-14 lists the specifications of the ETP4890 power system.
Table 5-14 Specifications of the ETP4890 power system
Parameter Class Parameter Description
Environment
conditions
Operating
temperature
–40°C to +70°C
NOTE
The power system can work at a temperature of
70°C for 8 hours.
Operating humidity 5% to 95% (no condensation)
Altitude 0 m to 4000 m
(Note that in the range of 2000 m to 4000 m,
the operating temperature decreases by 1°C
when the altitude increases by 200 m.)
AC input Mode mono-phase, dual-live wire
Voltage 85 V AC to 300 V AC (rated value: 110 V/220
V)
Frequency 45 Hz to 66 Hz (rated value: 50 Hz)
Power factor ≥ 0.99 in the case of a rated load
Power supply
module peak
efficiency
R4830N1: 94%
R4830G1: 96%
DC output Voltage -42 V to -58 V
Default voltage -53.5 V
Maximum power R4830N1: 4815 W (input voltage: 176 V
AC to 300 V AC; if the temperature is
higher than 55°C, power decreases
linearly); 2407.5 W (input voltage: 85 V
AC to 175 V AC; if the temperature is
higher than 55°C, power decreases
linearly)
R4830G1: 4800 W (input voltage: 176 V
AC to 300 V AC; if the temperature is
higher than 55°C, power decreases
linearly); 2400 W (input voltage: 85 V AC
to 175 V AC; if the temperature is higher
than 55°C, power decreases linearly)
NOTE
Maximum output power of the system = Number of
the configured power supply modules x Output
power of each power supply module
Regulated voltage
precision ≤ ±0.6%
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Parameter Class Parameter Description
Peak noise voltage ≤ 200 mV (0 MHz to 20 MHz)
Structure Dimensions (H x W
x D) without
brackets
86.1 mm x 442 mm x 255 mm
Weight ≤ 10 kg (including three 30 A power supply
modules and one SMU01B monitoring
module)
Protection class IP20
Installation mode Installed in an IEC cabinet or an ETSI cabinet
with brackets
Maintenance mode Front access
Cooling method Air cooling, with the built-in fan in the power
supply module
5.4 RPR006 Remote Side Power System (RFT-V)
A remote power supply (RPS) system consists of the remote side power system (RPR) and
central office (CO) remote power system. The RPR006 serves as the RPS remote side. It
converts the high-voltage DC current from the RPS CO end into -53.5 V DC output. The
RPR006 uses a modular design to achieve convenient installation and maintenance. It
provides solid security protection. The maximum output power of the RPR006 is 1800 W.
Function The RPR006 is equipped with six voltage step-down modules. Each module provides
four independent channels, and has input terminals and status indicators on its front
panel.
The RPR006 provides protection against input under-voltage, input over-voltage, output
short-circuit, over-current, and over-temperature.
The RPR006 has a built-in monitoring module. This module communicates with the
control board through an RS485 serial port and then the control board interacts with the
NMS. In this way, the NMS can query the status and alarm information about the
RPR006. The built-in monitoring module provides four dry contact alarm outputs.
The RPR006 has a built-in fan module to intelligently adjust fan speed.
Appearance
Figure 5-13 shows the appearance of the RPR006.
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Figure 5-13 RPR006
Component Configuration
Table 5-15 lists the components of the RPR006.
Table 5-15 Components of the RPR006
Component Specifications
RPS subrack RPF106
(including a monitoring
module RMU01 and a fan
module RFS01)
1
Voltage step-down module
RVM04 1–6
An RPR006 supports a maximum of 6 voltage step-down modules. All these voltage step-down modules
are connected in parallel.
Table 5-16 lists the mapping between the voltage step-down module quantity and maximum
output power.
Table 5-16 Mapping between the voltage step-down module quantity and maximum output power
Number of Voltage Step-Down Modules
Maximum Output Power
1 300 W
2 600 W
3 900 W
4 1200 W
5 1500 W
6 1800 W
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The actual output power depends on the specifications, number, and length of wire pairs between the
RPS CO end and RPS remote end.
Port Definition of the RMU01 Monitoring Module
Table 5-17 lists the communication port definition of the RMU01 monitoring module.
Table 5-17 Port definition of the RMU01 monitoring module
Communication Port
Communication Mode
Communication Parameter
Remarks
RS485 1 RS485 Baud rate: 19200 bit/s
or 115200 bit/s
This port is used as a
serial port. It
communicates with
the control board or is
cascaded with another
monitoring module
CMU01.
RS485 2 RS485 Baud rate: 19200 bit/s
or 115200 bit/s
This port is used as a
serial port. It
communicates with
the control board or is
cascaded with another
monitoring module
CMU01.
Indicator Description
Table 5-18 describes the indicators of the RVM04 voltage step-down module.
Table 5-18 Indicators of the RVM04 voltage step-down module
Color Status Description
Green Steady on The channel works normally.
Number of illuminated indicators: equals the
number of working channels
Blinking at 2 Hz A software upgrade is in progress.
If four indicators blink at the same time, the
entire voltage step-down module is being
upgraded.
Yellow Steady on The channel is being protected against input
over-voltage, input under-voltage, or
over-temperature.
Number of illuminated indicators: equals the
number of channels that are being protected
against input over-voltage, input under-voltage,
or over-temperature
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Color Status Description
Blinking at 0.5 Hz The voltage step-down module fails to
communicate with the monitoring module.
If four indicators blink at the same time, the
entire voltage step-down module encounters a
communication failure.
Red Steady on The channel is faulty.
Number of illuminated indicators: equals the
number of faulty channels
If a channel does not receive any DC power input, the corresponding indicator is off.
Table 5-19 describes the indicators on the RMU01 monitoring module.
Table 5-19 Indicators on the RMU01 monitoring module
Name Color Status Description
Running
indicator
Green Off The monitoring module is faulty or does
not receive any power input.
Blinking at 0.5
Hz
The monitoring module works normally
and communicates with the control
board.
Blinking at 4
Hz
The monitoring module works normally
but fails to communicate with the
control board.
Minor alarm
indicator
Yellow Off No minor alarm is generated.
Steady on A minor alarm is generated.
Critical
alarm
indicator
Red Off No critical or major alarm is generated.
Steady on A critical or major alarm is generated.
Input and Output Terminals
An RPR006 supports a maximum of 24 power input channels. Each voltage step-down
module supports four power input channels. The input terminals reside on the front panel of
each voltage step-down module.
An RPR006 provides a power output channel, and the output terminal resides on the right part
of the front panel of the RPS subrack.
Technical Specifications
Table 5-20 lists the technical specifications of the RPR006.
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Table 5-20 Technical specifications of the RPR006
Category Parameter Description
Environmental
requirements
Working
temperature
–40°C to +70°C
NOTE
The RPR006 can work at 70°C for consecutive 8 hours.
Working humidity 5%95%; no condensation
Altitude 0–4000 m
When the altitude ranges from 2000 m to 4000
m, the operating temperature decreases by 1°C
for each additional 200 m.
Input Input standard RFT-V
Input voltage 190 V DC to 380 V DC (If the input voltage
range is 190 V DC to 320 V DC, the output
power is derated.)
Number of input
channels
24
Maximum
efficiency of a
voltage step-down
module
If the load of the voltage step-down module is
100%, its maximum efficiency is greater than
92%.
If the load of the voltage step-down module is
50%, its maximum efficiency is greater than
90%.
Output Output voltage
range
-52 V DC to -56 V DC
Typical output
voltage
-53.5 V DC
Maximum output
power
1800 W (The maximum output power of a
voltage step-down module is 300 W.)
NOTE
The actual output power depends on the specifications,
number, and length of wire pairs between the RPS CO
end and RPS remote end.
Structure Dimensions (H x
W x D)
43.6 mm x 442 mm x 255 mm (without mounting
ears)
Weight ≤ 8 kg (in full configuration)
Protection rating IP20
Installation mode The RPR006 can be installed in an IEC or ETSI
cabinet.
Maintenance mode Front access
Cooling mode Air cooling through the built-in fan module
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5.5 (Optional) Batteries
The F01T300 cabinet uses a set (four batteries per set) of 50 Ah or 100 Ah batteries as the
backup power. These batteries are connected in series to form a battery set.
Configure the battery parameters before powering on or powering off the battery.
The battery used as the backup power of the device refers to the battery whose power can be
restored through charging after the battery is discharged. The battery can be charged in two
modes: equalized charging and floating charging. The meanings of the two modes are as
follows:
Equalized charging: A charging method with a higher voltage used to balance the battery
voltage and capacity and also be used to renew the capacity rapidly.
Floating charging: A method of maintaining a battery in a charged condition by
continuous, long-term, constant voltage charging, at a level sufficient to balance battery
self-discharge.
The battery appearance, dimensions, and weight provided in this topic are for reference only, which may
differ from the actual delivered battery.
50 Ah Battery
Figure 5-14 shows the appearance of the 50 Ah battery.
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Figure 5-14 Appearance of the 50 Ah battery
Table 5-21 lists the specifications of the 50 Ah battery.
Table 5-21 Specifications of the 50 Ah battery
Item Specification
Voltage of a single battery 12 V
Equalized charging voltage of the battery
group
56.5 V
Floating charging voltage of the battery
group
53.5 V
Dimensions (W x D x H) 105 mm x 390 mm x 200 mm
Weight of a single battery 21 kg
100 Ah Battery
Figure 5-15 shows the appearance of the 100 Ah battery.
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Figure 5-15 Appearance of the 100 Ah battery
Table 5-22 lists the specifications of the 100 Ah battery.
Table 5-22 Specifications of the 100 Ah battery
Item Specification
Voltage of a single battery 12 V
Equalized charging voltage of the battery
group
56.5 V
Floating charging voltage of the battery
group
53.5 V
Dimensions (W x D x H) 110 mm x 395 mm x 286 mm
Weight of a single battery 33.5 kg
5.6 TCB-B High temperature Battery
TCB-B (Temperature cycle battery B series) is specially designed temperature cycle battery,
TCB-B has excellent temperature standby performance up to recommended operating
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temperature is 15~45°C, due to special anti-corrosion grid and active material with special
additives.
40 Ah High temperature Battery
Figure 5-16 shows the appearance of the 40 Ah high temperature battery.
Figure 5-16 Appearance of the 40 Ah high temperature battery
Table 5-23 lists the specifications of the 40 Ah high temperature battery.
Table 5-23 Specifications of the 40 Ah high temperature battery
Item Specification
Voltage of a single battery 12 V
Impedance (mΩ) 8 mΩ
High temperature alarm point 55°C
High temperature protection point 58°C
Operating temperature 15°C~45°C
Max Dimensions (W x D x H) 165 mm x 197 mm x 173 mm
Weight of a single battery 13.8 kg
100 Ah High temperature Battery
Figure 5-17 shows the appearance of the 100 Ah high temperature battery.
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Figure 5-17 Appearance of the 100 Ah high temperature battery
Table 5-24 lists the specifications of the 100 Ah high temperature battery.
Table 5-24 Specifications of the 100 Ah high temperature battery
Item Specification
Voltage of a single battery 12 V
Impedance (mΩ) 4.3 mΩ
High temperature alarm point 55°C
High temperature protection point 58°C
Operating temperature 15°C~45°C
Max Dimensions (W x D x H) 110 mm x 395 mm x 286 mm
Weight of a single battery 31.5 kg
150 Ah High temperature Battery
Figure 5-18 shows the appearance of the 150 Ah high temperature battery.
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Figure 5-18 Appearance of the 150 Ah high temperature battery
Table 5-25lists the specifications of the 150 Ah high temperature battery.
Table 5-25 Specifications of the 150 Ah high temperature battery
Item Specification
Voltage of a single battery 12 V
Impedance (mΩ) 4.15 mΩ
High temperature alarm point 55°C
High temperature protection point 58°C
Operating temperature 15°C~45°C
Max Dimensions (W x D x H) 110 mm x 549 mm x 310 mm
Weight of a single battery 49 kg
5.7 TCB-C High temperature Battery
TCB-C (Temperature cycle battery C series) is specially designed temperature cycle battery.
TCB-C has excellent temperature cycle performance up to recommended operating temperature is
15–45°C.
100 Ah High temperature Battery
Figure 5-19shows the appearance of the 100 Ah high temperature battery.
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Figure 5-19 Appearance of the 100 Ah high temperature battery
Table 5-26 lists the specifications of the 100 Ah high temperature battery.
Table 5-26 Specifications of the 100 Ah high temperature battery
Item Specification
Voltage of a single battery 12 V
Impedance (mΩ) 5.4 mΩ
High temperature alarm point 55°C
High temperature protection point 58°C
Operating temperature 15°C~45°C
Max Dimensions (W x D x H) 125 mm x 400 mm x 286 mm
Weight of a single battery 36 kg
150 Ah High temperature Battery
Figure 5-20 shows the appearance of the 150 Ah high temperature battery.
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Figure 5-20 Appearance of the 150 Ah high temperature battery
Table 5-27 lists the specifications of the 150 Ah high temperature battery.
Table 5-27 Specifications of the 150 Ah high temperature battery
Item Specification
Voltage of a single battery 12 V
Impedance (mΩ) 5.1 mΩ
High temperature alarm point 55°C
High temperature protection point 58°C
Operating temperature 15°C~45°C
Max Dimensions (W x D x H) 125 mm x 552 mm x 310 mm
Weight of a single battery 56 kg
5.8 ESM-4850A2 / ESM-4875A1 Li-ion Battery (Optional)
The Li-ion battery consists of the battery block, energy storage management unit (ESMU),
power terminals, signal terminals, and mechanical parts.
Function
The Li-ion battery performs the following functions:
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Status monitoring: Monitors the cell voltage, current, and temperature as well as the
Li-ion battery voltage.
Alarm: Generates an alarm if overvoltage, under voltage, overcurrent, high temperature,
or low temperature occurs.
Information reporting: Supports northbound CAN and Modbus communication; reports
all alarms and status data over CAN or Modbus ports.
Appearance
Figure 5-21 shows the appearance of the Li-ion battery.
Figure 5-21 Appearance of the Li-ion battery
Table 5-28 lists the specifications of the ESM-4850A2 Li-ion battery.
Table 5-28 Specifications of the ESM-4850A2 Li-ion battery
Item Specification
Nominal Voltage 48 Vdc
Nominal Charging Voltage 53.5 Vdc
Max. Charging / Discharging Current Limited 50A / 50A @35ºC
Cycle Life 4500 cycles @ 0.5C, 85% DOD,
35ºC
Nominal Capacity 50 Ah @ 0.2C, 35ºC (2400
Wh @ 0.2C, 35ºC)
Dimension (W x D x H) 442 mm x 396 mm x 130 mm
(without mounting ear)
Weight Approx. 38 kg
Self-Discharge @ 25ºC Less than 5% after 90 days
storage
Communication Interface CAN/RS485; 2 dry contacts
Max. Quantity of Parallel Connection CAN: 32; RS485: 8
Max. load power supported in parallel 15kW
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Item Specification
Certification CE, UN38.3
Design Life 15 years
Table 5-29 lists the specifications of the ESM-4875A1 Li-ion battery.
Table 5-29 Specifications of the ESM-4875A1 Li-ion battery
Item Specification
Nominal Voltage 48 Vdc
Nominal Charging Voltage 53.5 Vdc
Max. Charging / Discharging Current Limited 50A / 50A @35ºC
Cycle Life 3000 cycles @ 0.5C, 85% DOD,
35ºC
Nominal Capacity 75 Ah @ 0.2C, 35ºC (3600
Wh @ 0.2C, 35ºC)
Dimension (W x D x H) 442 mm x 396 mm x 130 mm
(without mounting ear)
Weight Approx. 41 kg
Self-Discharge @ 25ºC Less than 5% after 90 days
storage
Communication Interface CAN/RS485; 2 dry contacts
Max. Quantity of Parallel Connection CAN: 32; RS485: 8
Max. load power supported in parallel 15kW
Certification CE, UN38.3
Design Life 15 years
Panel and Ports
Figure 5-22 shows the panel of the Li-ion battery.
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Figure 5-22 Panel of the Li-ion battery
Table 5-30 describes the panel port definitions.
Table 5-30 Panel port definitions
No. Silk Screen Name Function
1 DO1 DO2 ESM alarm output Alarm output dry contact
2 COM_ IN Communications port It is used for information reporting and
communication cascading. It uses the
RJ45 terminal and provides 250 A surge
protection.
3 COM_ OUT Communications port
4 GND Protective ground M6 screw
5 RUN Communication and
running indicator For details about the appearances of the
LED indicators, see Figure 5-24. For
details about the functions of the LED
indicators, see Table 5-32. ALM Alarm indicator
CHG Charge indicator
DCHG Discharge indicator
6 MANUAL
ON/OFF
Manual power-on/off
button
It is a contact button used for
performing manual power-on and
power-off during maintenance. It is a
contact button.
7 PWR ESMU port for
connecting to an
external power source
It is used to connect to a 43.2–58 V
power source. When it is connected to
such a power source, the Li-ion battery
can be activated.
8 + Positive battery
terminal
Positive and negative terminals of the
Li-ion battery. They can be secured
using M6 screws and proper OT
terminals at a torque of 4 Nm. The
recommended cross-sectional area of the
cable is 16 mm2. When the ambient
temperature is lower than 45°C, the
cross-sectional area of the cable can be
smaller but must be greater than or equal
to 10 mm2.
- Negative battery
terminal
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Figure 5-23 shows the pins in an RJ45 terminal.
Figure 5-23 Pins in an RJ45 terminal
Table 5-31 describes the port pin in an RJ45 terminal definitions.
Table 5-31 Port pin in an RJ45 terminal definitions
RJ45 Pin
Signal Meaning Description
1 RS485 T+ RS485
transmission +
They (except NC) are connected to RS485
ports and comply with the Modbus
protocol. 2 RS485 T- RS485
transmission –
3 NC Reserved
4 RS485 R+ RS485 reception +
5 RS485 R- RS485 reception –
6 NC Reserved -
7 CANH CAN
communication +
They are connected to the external alarm
ports of the SMU01B, and are used for data
communication between battery groups
when batteries are connected in parallel. 8 CANL CAN
communication –
LED Indicators
Figure 5-24 shows the LED indicators of the Li-ion battery.
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Figure 5-24 LED indicators of the Li-ion battery
Table 5-32 describes the LED indicators definitions.
Table 5-32 LED indicators definitions
Identifier Meaning Color Description
RUN Communication
and running
indicator
Green Steady on: Communication is normal
(including board startup, self-check, firmware
upgrading, and power-on without upgrading
firmware; excluding hibernation when the
power terminals or PWR port are energized)
Off: The Li-ion battery is hibernating.
Blinking at long intervals: The LCD user
interface (LUI) is querying data.
Blinking at short intervals: Communication is
disconnected.
ALM Fault indicator Red Steady on: There is a fault or major alarm.
Off: There is no fault or major alarm.
When the Li-ion battery is in hibernation
mode, the indicator is off except for reverse
connection protection.
CHG Charge indicator Green Off: The Li-ion battery is open-circuited or
discharging.
Steady on: The Li-ion battery is being charged.
DCHG Discharge
indicator Green Off: The Li-ion battery is open-circuited or
being charged.
Steady on: The Li-ion battery is discharging.
Major alarm: The Li-ion battery needs to be maintained immediately.
Minor alarm: The Li-ion battery does not require maintenance, but provides a reminder for remote
maintenance personnel.
Blinking at long intervals: on for 1s and then off for 1s.
Blinking at short intervals: on for 0.125s and then off for 0.125s.
All indicators are blinking: The Li-ion battery has entered the maintenance mode.
In hibernation mode, all indicators expect the one for protection for reversed connection are off.
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Activation
A Li-ion battery can be activated in the following modes. After being activated, the Li-ion
battery status changes from the hibernation mode to the offline mode.
Activation through the PWR terminal: Connect a 43.2–58 V DC power source whose
voltage lasts for 5s or longer to the PWR terminal on the Li-ion battery panel.
Activation through the MANUAL ON/OFF button: Hold down the MANUAL ON/OFF
button on the Li-ion battery panel for a time longer than or equal to 5s but shorter than
15s.
Activation through the power port: Connect a 43.2–58 V DC power source whose
voltage lasts for 5s or longer to the power port on the front panel.
The MANUAL ON/OFF button is a contact button. The interval between 2 button operations must
be longer than 0.5s. Otherwise, the latter operation is invalid.
If the battery is forcibly powered off in charging, discharging, or offline mode by pressing the
MANUAL ON/OFF button, you need to hold down the activation button to activate the Li-ion
battery again.
5.9 AC PDU
An AC power distribution unit (PDU) is used in an AC-powered cabinet. The PDU draws in
power from the AC mains supply or a diesel generator for AC power distribution and power
supply protection.
Function
The AC PDU has the following functions:
Provides one AC input and four AC outputs.
Supports a maximum 40 kA surge protector and provides a dry contract port for remote
alarming.
Provides comprehensive and reliable grounding system and protection circuit, ensuring
power supply reliability and device safety for the communications system.
Appearance
Figure 5-25 shows the appearance of the AC PDU.
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Figure 5-25 Appearance of the 3 U AC PDU
Configuration
The AC PDU consists of the circuit breaker, surge protector, decoupling coil, and residual
current device (RCD). Table 5-33 describes the configuration of these components.
Table 5-33 Configuration of components in the AC PDU
Component Configuration
Circuit breaker (bipolar 40 A, AC mains
input)
Mandatory
Circuit breaker (bipolar 40 A, generator
input)
Mandatory
Surge protector (maximum 40 kA) Mandatory
RCD (100 mA) A 100 mA RCD is not configured by
default, unless otherwise required.
If a 100 mA RCD is not configured, insert a
filler panel into the slot for the RCD.
RCD (30 mA) Mandatory
Input Terminal
Figure 5-26 shows the input terminals of the AC PDU.
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Figure 5-26 Input terminals of the AC PDU
The input terminals of the AC PDU are connected as follows:
AC Mains Input terminals L(L1), N(L2), and PE of the PDU are connected to lines L, N,
and PE of an AC power cable for leading in the mains input (220 V AC).
AC Mains Input terminals L(L1), N(L2), and N of the PDU are connected to lines L1, L2,
and N of an AC power cable for leading in the mains input (110 V AC dual live wires).
Generator Input terminals L(L1), N(L2), and PE of the PDU are connected to lines L, N,
and PE of an AC power cable for leading in the diesel generator input (220 V AC).
Generator Input terminals L(L1), N(L2), and N of the PDU are connected to lines L1, L2,
and N of an AC power cable for leading in the diesel generator input (110 V AC dual
live wires).
Output Terminal
Figure 5-27 shows the output terminals of the AC PDU.
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Figure 5-27 Output terminals of the AC PDU
The output terminals of the 3 U AC PDU are connected as follows:
Output1 connected to the maintenance socket, intelligent heating modules of the battery
compartment (optional), and intelligent heating modules of the equipment compartment
(optional).
Output2 connected to the ETP4830 or ETP 4890 power system
SPD ALARM connected to the signal transfer box
Surge Protector
The AC PDU uses a maximum 40 kA surge protector, protecting the power system and the
powered devices from the surge voltage caused by lightning strikes.
Table 5-34 lists the specifications of the surge protector.
Table 5-34 Specifications of the surge protector
Parameter Specification
Nominal voltage 220 V AC or 110 V AC dual live wires
Maximum continuous operating voltage
(Uc)
385 V AC
Maximum discharge current (Imax) 40 kA (8/20 μs)
Nominal discharge current (In) 20 kA (8/20 μs)
Protection level (Up) 1.5 kV
Local alarm window indication Green: The surge protector is
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Parameter Specification
functioning properly.
Red: The surge protector is faulty and
needs to be replaced immediately.
Dimensions (H x W x D) 72 mm x 90 mm x 65 mm
Specifications
Table 5-35 lists the specifications of the AC PDU.
Table 5-35 Specifications of the AC PDU
Item Specification
Rated voltage 220 V AC or 110 V AC dual live wires
Maximum output current 40 A
Number of outputs 4
Dimensions (W x D x H) 442 mm x 264.2 mm x 130 mm
5.10 DPD50-3-5S DC PDU
The DPD50-3-5S DC power distribution unit (PDU) works with the ETP4830 power system
for DC power distribution.
Function
The DPD50-3-5S DC PDU leads in three DC inputs from the ETP4830 power system and
provides five DC outputs, each output controlled by a separate switch.
Appearance
Figure 5-28 shows the appearance of the DPD50-3-5S DC PDU.
Figure 5-28 Appearance of the DPD50-3-5S DC PDU
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In Figure 5-28, the plug-and-play connector connects to the DC power cable. The connector must be
purchased separately and work with a DC PDU.
Working Principle
Figure 5-29 illustrates the working principle of the DPD50-3-5S DC PDU.
Figure 5-29 Working principle of the DPD50-3-5S DC PDU
The DPD50-3-5S DC PDU provides five DC outputs: LOAD00, LOAD10, LOAD11, LOAD12, and
LOAD20, among which LOAD20 is subdivided into three tributaries (LOAD20-1, LOAD20-2, and
LOAD20-3) for connecting to more loads.
Input Terminal
Figure 5-30 shows the input terminals of the DPD50-3-5S DC PDU.
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Figure 5-30 Input terminals of the DPD50-3-5S DC PDU
The input terminals of the DPD50-3-5S DC PDU are connected to the ETP4830 power
system as follows:
INPUT0 connected to the BATT output port of the power system
INPUT1 connected to the LOAD2 output port of the power system
INPUT2 connected to the LOAD1 output port of the power system
Output Terminal
Figure 5-31 shows the output terminals of the DPD50-3-5S DC PDU.
Figure 5-31 Output terminals of the DPD50-3-5S DC PDU
Output Switch
Figure 5-32 shows the output switches of the DPD50-3-5S DC PDU.
Figure 5-32 Output switches of the DPD50-3-5S DC PDU
Table 5-36 describes the mapping between the output switches and the loads.
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Table 5-36 Mapping between the output switches and the loads
Output Switch Load Output Current
SW00 (20 A) LOAD00 20 A
SW10 (20 A) LOAD10 20 A
SW11 (20 A) LOAD11 20 A
SW12 (20 A) LOAD12 20 A
SW20 (12 A) LOAD20 (LOAD20-1,
LOAD20-2, and LOAD20-3)
12 A
LOAD00 connects to the battery.
LOAD10, LOAD11, LOAD12, LOAD20-1, LOAD20-2, and LOAD20-3 connect to different loads
of the power supply system.
Specifications
Table 5-37 lists the specifications of the DPD50-3-5S DC PDU.
Table 5-37 Specifications of the DPD50-3-5S DC PDU
Parameter Specification
Rated voltage -48 V DC
Maximum input current Input0: 20 A
Input1: 20 A
Input2: 20 A
Number of outputs 5
Dimensions (W x D x H) 442 mm x 220 mm x 42 mm
5.11 Maintenance Socket
The maintenance socket is used to supply power to the external device during field
maintenance.
Appearance
There are two types of maintenance sockets: European standard sockets and universal sockets.
You can select one type based on your requirements.
Figure 5-33 shows the appearance of the maintenance socket.
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Figure 5-33 Appearance of the maintenance socket
Specifications
Table 5-38 lists the specifications of the maintenance socket.
Table 5-38 Specifications of the maintenance socket
Item Specification
Output voltage 200 V AC to 240 V AC
Maximum current carrying capability 3 A
5.12 Power Meter Box (optional)
The power meter box is on the left side of the cabinet. It is used to house a power meter and is
configured with a separate door lock.
Appearance
Figure 5-34 shows the appearance of the power meter box.
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Figure 5-34 Appearance of the power meter box
Internal dimensions
Internal dimensions (H x W x D) of the power meter box: 515 mm x 255 mm x 105 mm.
Figure 5-35 shows the appearance of the cable trough.
Figure 5-35 Appearance of the cable trough
Structure
Figure 5-36 shows the structure of the power meter box.
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Figure 5-36 Structure of the power meter box
Requirements
Table 5-39 lists the requirements for a power meter.
Table 5-39 Requirements for a power meter
Item Value
Maximum dimensions (H x W x D) of the power
meter
290 mm x 180 mm x 100 mm
Maximum operating temperature > 65°C
Power consumption < 1 W
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6 Monitoring System
6.1 Monitoring Principle
When the ETP4830 or ETP4890 power system is configured, the signal transfer box collects
the information about monitored parameters and the power monitoring module processes and
reports the parameters to the service device. In this way, the F01T300 cabinet monitors the
environment, power units, and other main components inside the cabinet. When the electronic
door lock is optional, you need to select the CCU to monitor it.
When the Remote side power system (RPR) is configured, the CCU reports the monitored
parameters to the service device. In this way, the F01T300 cabinet monitors the environment,
power units, and other main components inside the cabinet.
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Monitoring Principle (When AC Power Supply and Battery and HW-2802 Door Lock Are Used)
Figure 6-1 Monitoring principle of the F01T300 cabinet (AC Power supply + Battery + HW-2802
door lock)
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Monitoring Principle (When AC Power Supply and Li-ion Battery and HW-2802 Door Lock Are Used)
Figure 6-2 Monitoring principle of the F01T300 cabinet (AC Power supply + Li-ion Battery +
HW-2802 door lock)
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Monitoring Principle (When AC Power Supply and Battery and Electronic Door Lock Are Used)
Figure 6-3 Monitoring principle of the F01T300 cabinet (AC Power supply + Battery + Electronic
door lock)
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Monitoring Principle (When AC Power Supply and Li-ion Battery and Electronic Door Lock Are Used)
Figure 6-4 Monitoring principle of the F01T300 cabinet (AC Power supply + Li-ion Battery +
Electronic door lock)
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Monitoring Principle (When a Remote Side Power System Is Used)
Figure 6-5 Monitoring principle of the F01T300 cabinet
6.2 CCU
This topic describes the appearance and features of the CCU.
The CCU is used to monitor electronic door locks. Figure 6-6 shows the appearance of the
CCU. For details, see Intelligent Site Product Description.
Figure 6-6 Appearance of the CCU
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6.3 MUE02A Sensor Transfer Box
The sensor transfer box provides various sensor ports to connect the external sensors to
monitoring module, collecting signals from the sensors and forwarding the signals to the
monitoring module.
Appearance
Figure 6-7 shows the appearance of the MUE02A sensor transfer box.
Figure 6-7 Appearance of the MUE02A sensor transfer box
Sensor Port
Figure 6-8 and Table 6-1 describe the sensor ports on the MUE02A sensor transfer box.
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Figure 6-8 Sensor ports of the MUE02A sensor transfer box
Table 6-1 Pin function of the sensor ports
Silk Screen Signal Port Pin Function
SIM1/SIM2 Port for detecting voltages Pin 1 is for the signal cable.
Pin 2 is reserved.
FU_ALM Port for detecting battery fuses Pin 1 is for the signal cable.
Pin 2 is reserved.
TEM_HU Port for detecting temperature and
humidity 1
Pin 1 and pin 3 are for +12 V
power supply.
Pin 2 is for the temperature
signal cable.
Pin 4 is for the humidity signal
cable.
BAT_WE Port for detecting battery
temperature 1
Pin 1 is for the +12 V power
supply.
Pin 2 is for the signal cable.
VBTEM2 Port for detecting battery
temperature 2
Pin 1 is for the +12 V power
supply.
Pin 2 is for the signal cable.
VTEM2 Port for detecting temperature 2 Pin 1 is for the +12 V power
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Silk Screen Signal Port Pin Function
supply.
Pin 2 is for the signal cable.
JTD1-JTD7 Port for digital parameter input Pin 1 and pin 2 are for +12 V
power supply.
Pin 3 is for the signal cable.
Pin 4 is for grounding.
SMOKE Smoke sensor port Pin 1 is for the signal cable.
Pin 2 is for +24 V power
supply.
WATER Water sensor port Pin 1 is for +12 V power
supply.
Pin 2 is for the signal cable.
Pin 3 is for grounding.
JTM1 Door status sensor port Pin 1 is for the signal cable.
Pin 2 is for +12 V power
supply.
JTP1 Sensor port on the MDF Pin 1 is for the signal cable.
Pin 2 is reserved.
JK1/JK2 Alarm dry contact output port The maximum voltage is 60 V DC
and the maximum load current is
500 mA.
JAC1/JAC2 Alarm dry contact output port The maximum voltage is 60 V DC
and the maximum load current is
500 mA.
JKM1-JKM4 Alarm dry contact output port The maximum voltage is 60 V DC
and the maximum load current is
500 mA.
CAB_E-LABEL Cabinet electronic label port Pin 1 is for +5 V power
supply.
Pin 2 is for the clock cable.
Pin 3 is for the digital cable.
Pin 4 is for grounding.
Parameter
Table 6-2 lists the specifications of the MUE02A sensor transfer box.
Table 6-2 Specifications of the MUE02A sensor transfer box
Parameter Specifications
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Parameter Specifications
Dimensions (H x W x D) 31 mm x 140 mm x 96 mm
6.4 Fan Control Board
The fan control board inside the cabinet controls and monitors internal and external
circulating fans, and adjusts their speeds based on the temperature detected by the external
temperature sensor.
FCB Appearance
Figure 6-9 shows the FCB appearance.
Figure 6-9 FCB appearance
Performance
Performance Description
Power supply
input and load
The power supply input ranges from -36 V to +60 V. The power
provides reverse polarity protection and supports soft startup. It also
supports a maximum load of 500 W.
Fan control The FCB provides six 48 V fan interfaces with each producing
independent PWM signals. Each fan supports 100 W or 150 W.
Temperature
monitoring
The FCB monitors the temperature ranging from –45°C (–49°F) to
+70°C (+158°F) with ±1°C precision. The FCB provides a temperature
sensor and can connect to two outside temperature sensors.
Communication The FCB has an RS485 monostable multivibrator. The host can
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Performance Description
communicate with two FCBs using the RS485 cascading interfaces.
Alarm output The FCB supports the output of dry contact alarms.
Indicator status The FCB provides a red indicator and a green indicator to indicate the
operating status.
Control mode Fans can be controlled by a host or the FCB.
Principles
Figure 6-10 shows the FCB operating principles.
Figure 6-10 FCB operating principles
Indicator Description
Figure 6-11 FCB panel
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Table 6-3 Description of the indicators on the FCB
Indicator Label Color Status Description
Operating
status
indicator
RUN Green
Steady on The FCB is powered on but no
programs are running.
Blinks at 0.5 Hz The FCB is running properly.
1s on and 1s off
Blinks at 4 Hz Links connecting to the serial
interface fail or the FCB is not
registered. 0.125s on and
0.125s off
Steady off The FCB is not powered on.
Alarm
indicator ALM Red
Steady on
The FCB or hardware module is
faulty and needs to be returned
to R&D engineers for analysis.
Blinks at 0.5 Hz An alarm is generated but
whether the FCB needs to be
returned cannot be determined. 1s on and 1s off
Steady off No alarm is generated.
Parameters
Table 6-4 lists the FCB parameters.
Table 6-4 FCB parameters
Item Specifications
Dimensions (H x W x D) 155 mm x 105 mm x 10 mm
6.5 Sensor
The following figure shows positions of sensors inside the F01T300 cabinet.
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Figure 6-12 Installation positions of sensors
6.5.2 Door Status Sensor
The door status sensor monitors the status of the cabinet door.
Appearance
The door status sensor uses a magnetic switch as the probe. The magnetic switch consists of
two built-in parts. The reeds of the magnetic switch are attracted together through
electromagnetic interaction. The output signals are dry-contact output signals without polarity.
Figure 6-13 shows the appearance of the door status sensor.
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Figure 6-13 Appearance of the door status sensor
Technical Specifications
Table 6-5 describes the technical specifications of the door status sensor.
Table 6-5 Technical specifications of the door status sensor
Parameter Value
Power supply voltage 12 V DC
Switch status Off
Node capacity Bearable voltage: 150 V DC
Bearable current: 0.5 A
Impedance 0.3 ohm
Output signal type Dry contact
6.5.3 (Optional) Battery Temperature Sensor (NTC Type)
The battery temperature sensor (NTC type) samples the ambient temperature of the battery set
to monitor the temperature of the battery in real time, and is used for float charging
temperature compensation, over temperature alarming, and protection for the battery.
Appearance
The battery temperature sensor (NTC type) integrates with a negative temperature coefficient
(NTC) temperature sensor, and outputs resistance analog parameters. To sample the ambient
temperature of the battery set, install the temperature probe of the battery temperature sensor
(NTC type) at a position that best represents the temperature of the battery set. Do not connect
the temperature probe to other exothermic devices.
Figure 6-14 shows the appearance of the battery temperature sensor (NTC type).
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Figure 6-14 Appearance of the battery temperature sensor (NTC type)
Technical Specifications
Table 6-6 lists the technical specifications of the battery temperature sensor (NTC type).
Table 6-6 Technical specifications of the battery temperature sensor (NTC type)
Parameter Value
Nominal resistance 10 kilohms±1% (at 25°C)
Temperature measurement range –40°C to +80°C
Precision of temperature measurement ±1°C (at 25°C)
Signal output 190.25 kilohms to 1.663 kilohms
6.5.4 Environment Temperature Sensor (NTC Type)
The environment temperature sensor (NTC type) samples the ambient temperature of the
device in a cabinet to monitor the temperature of the device in real time, and it is used for
over temperature alarming.
Appearance
The environment temperature sensor (NTC type) integrates with a negative temperature
coefficient (NTC) temperature sensor, and outputs resistance analog parameters. To sample
the ambient temperature of the device in a cabinet, install the temperature probe of the
environment temperature sensor (NTC type) at a position that best represents the temperature
of the cabinet. Do not connect the temperature probe to other exothermic devices.
Figure 6-15 shows the appearance of the environment temperature sensor (NTC type).
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Figure 6-15 Appearance of the environment temperature sensor (NTC type)
Technical Specifications
Table 6-7 shows the technical specifications of the environment temperature sensor (NTC
type).
Table 6-7 Technical specifications of the environment temperature sensor (NTC type)
Parameter Value
Nominal resistance 10 kilohms±1% (at 25°C)
Temperature measurement range –40°C to +80°C
Precision of temperature measurement ±1°C (at 25°C)
Signal output 190.25 kilohms to 1.663 kilohms
6.5.5 (Optional) Smoke Sensor
The smoke sensor is used to detect the smoke generated by the fire to prompt the fire in
advance.
Appearance
The smoke sensor is sensitive to the white smoke that is generated in burning. The smoke
sensor can warn the fire effectively.
Figure 6-16 shows the smoke sensor.
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Figure 6-16 Smoke sensor
Principles
The red LED turns steady on when the probe detects the alarm state. When the system is reset,
or it is powered off and again powered on, the sensor restores to the state without alarms. At
this time, the red LED blinks normally, as shown in Table 6-8.
Table 6-8 Description of the LED on the probe
LED Status Meaning
Red LED Steady on The probe is in the alarming state.
Blinking The probe is in the non-alarming state.
Technical Specifications
Table 6-9 describes the technical specifications of the smoke sensor.
Table 6-9 Technical specifications of the smoke sensor
Parameter Value
Type JTY-GD-S839
Power supply voltage 12 VDC/24 V DC ± 5%
Output type 2-wire Boolean value type
Operating type Optical or electrical smoke sensing type
6.5.6 (Optional) Water Sensor
The water sensor is used to monitor the liquid level change.
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Appearance
The liquid-level sensor adopted by Huawei is a kind of plug-in spacing liquid-level sensor.
This sensor is of the current-output type. When the sensor enters the liquid, the power supply
forms an injection current to the signal end to monitor the liquid level change.
The solid-state liquid-level sensing head adopts the infrared photoelectricity theory. When the
detected liquid contacts the sensing head, the light path is changed, and the infrared receiving
point is in the stop state. In this way, the reverser is inverted, and outputs the low-level
absorbing current.
Figure 6-17 shows the water sensor.
Figure 6-17 Water sensor
7 7 + 1
2 7 0 0 + 2 0
1
8
U n it : m m
Principles
Figure 6-18 shows the electrical principles of the water sensor.
Figure 6-18 Electrical principles of the water sensor
R 1
R 2
D 2
D 1
R e d
W h ite
G re e n
S o lid -s ta te
liq u id - le v e l
s e n s in g
h e a d
The water sensor is a three-wire interface.
Green wire: Output signal
Red wire: +12 V
White wire: GND
Technical Specifications
Table 6-10 describes the technical specifications of the water sensor.
Table 6-10 Technical specifications of the water sensor
Parameter Value
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Parameter Value
Type YW517B
Power supply voltage 12 V DC ± 5%
Output current when no liquid is
detected
<80 uA
Output current when the liquid is
detected
10 mA to 15 mA
Output signal type Current
Work temperature range –20°C to +70°C
The cable configured for the YW517B water sensor is 2.7 m long.
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7 Temperature Control System
7.1 Temperature Control Principle
The F01T300 cabinet provides a built-in temperature control unit for heat dissipation and
heating. The temperature control unit controls the temperature inside the cabinet within a
proper range and ensures that the device inside the cabinet functions properly.
Heat Dissipation
The F01T300 cabinet uses a split type heat exchange structure and two fans for internal and
external cycles to dissipate heat for the cabinet.
The heat dissipation system contains two independent air cycles (internal cycle and external
cycle). Acentric fans for the internal and external cycles enable air convection for cooling the
sealed area. Specifically, the air inside the sealed area is cooled through heat exchange with
the air outside the cabinet, and heat is transferred through the heat exchange core.
Figure 7-1 illustrates the heat dissipation of the F01T300 cabinet.
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Figure 7-1 Heat dissipation of the F01T300 cabinet
Heating
An intelligent heating module can be installed at the left side of the battery compartment or
the right side of the equipment compartment. A fan in the heating module blows air to
dissipate heat generated by the heating module. In this way, the battery compartment or
equipment compartment is heated and the heat inside the compartment is balanced, ensuring
optimal operating temperature for the battery set or all the devices.
7.2 Temperature Control Unit
The temperature control unit inside the F01T300 cabinet consists of two 175 mm cabinet fans
and one HAU02A-01 intelligent heating module (optional).
The F01T300 cabinet uses two 175 mm cabinet fans for internal air circulation and two
for external air circulation, dissipating heat for the cabinet.
The HAU02A-01 intelligent heating module is optional. One is mandatory for areas at
battery temperatures lower than –15°C, and another is also mandatory for areas at
equipment temperatures lower than –25°C.
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7.2.1 175 mm Cabinet Fan
The temperature sensor on the cabinet fan detects the ambient temperature and automatically
adjusts the fan speed to dissipate heat out of the cabinet.
Appearance
Figure 7-2 shows the appearance of the 175 mm cabinet fan.
Figure 7-2 Appearance of the 175 mm cabinet fan
Technical Specifications
Table 7-1 lists the technical specifications of the 175 mm cabinet fan.
Table 7-1 Technical specifications of the 175 mm cabinet fan
Item Specification
Rated voltage –48 VDC
Working voltage range –36 V DC to –60 VDC
Maximum power
consumption
98 W
Maximum rotation speed 4000 rpm
Operating life 70000 h (40°C)
Rotation speed control
mode
PWM (pulse width modulate) speed adjustment
Dimensions (diameter x
height)
175 mm x 69 mm
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7.2.2 (Optional) HAU03A-01 Intelligent Heating Module
As a temperature control device, an HAU03A-01 intelligent heating module enables
equipment to function properly in a low-temperature environment.
Appearance
Figure 7-3 shows the appearance of the HAU03A-01 intelligent heating module.
Figure 7-3 Appearance of the HAU03A-01 Intelligent Heating Module
Specifications
Table 7-2 lists the specifications of the HAU03A-01 intelligent heating module.
Table 7-2 Specifications of the HAU03A-01 intelligent heating module
Parameter Value
Rated voltage 220 V AC
Operation mode When the detecting temperature is lower
than 0°C (±3°C), the intelligent heating
module will start working.
When the detecting temperature is higher
than 15°C (±3°C), the intelligent heating
module will stop working.
Indicator status RUN (green): steady on, indicates that
it works normally.
ALM (red): steady on, indicates that it
generates the alarm.
Operating temperature range –40°C to +65°C
Operating humidity range 5%-95% RH
Dimensions (H x W x D) 43.6 mm x 216 mm x 120 mm
Maximum power consumption 500 W
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8 Cable Distribution System
8.1 Cable Distribution Principle
The F01T300 cabinet provides a built-in main distribution frame (MDF) and a built-in optical
distribution frame (ODF) for service access and service upstream transmission.
Fiber Access
Figure 8-1 shows the cable distribution of the F01T300 cabinet when the cabinet provides
fiber access.
Figure 8-1 Cable distribution of the F01T300 cabinet (only for PON access, default)
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Figure 8-2 Cable distribution of the F01T300 cabinet (only for PON access; patch cord tray is
optional)
Figure 8-3 Cable distribution of the F01T300 cabinet (only for P2P access)
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Copper Access
Figure 8-4, Figure 8-5, Figure 8-6, and Figure 8-7 show the cable distribution of the F01T300
cabinet when the cabinet provides copper access.
Figure 8-4 Cable distribution of the F01T300 cabinet (only for narrowband services)
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Figure 8-5 Cable distribution of the F01T300 cabinet (only for broadband services)
Figure 8-6 Cable distribution of the F01T300 cabinet (1:1 narrowband and broadband services)
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Figure 8-7 Cable distribution of the F01T300 cabinet (narrowband and broadband combo boards)
In Figure 8-5 and Figure 8-6, broadband service boards with built-in splitters are used as examples.
The F01T300 cabinet can be flexibly configured to meet service requirements. When the number of
narrowband ports exceeds the number of broadband ports, see Figure 8-4 for the cable distribution of
excessive narrowband ports. When the number of broadband ports exceeds the number of
narrowband ports, see Figure 8-5 for the cable distribution of excessive broadband ports.
Integrated Fiber and Copper Access
The following uses narrowband and broadband combo boards as examples for copper access to describe
the cable distribution of the F01T300 cabinet that provides integrated fiber and copper access.
Figure 8-8 shows the cable distribution of the F01T300 cabinet when the cabinet provides
integrated fiber and copper access.
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Figure 8-8 Cable distribution of the F01T300 cabinet (integrated fiber and copper access,
MA5603T)
8.2 Cable Distribution Unit
When the F01T300 cabinet provides only copper access, it is equipped with a built-in main
distribution frame (MDF). The MDF is used for connecting internal subscriber cables to
external subscriber cables by patching cables between exchange-side terminal blocks and
cable-side terminal blocks. The protective units on cable-side terminal blocks protect lines
from overvoltage and over-current. The built-in integrated splicing and termination unit (12
cores; FC/PC type) connects device-side optical fibers to upstream optical cables.
Figure 8-9 shows the appearance of cable distribution compartment of the F01T300 cabinet
when the cabinet provides copper access or integrated fiber and copper access.
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Figure 8-9 Appearance of the cable distribution compartment (for copper access or integrated
fiber and copper access)
Internal Subscriber Cable Harness
An internal subscriber cable harness consists of the connector, internal subscriber cable, and
terminal block, and it connects a service board to the MDF.
The configuration of internal subscriber cable harnesses depends on the board types of the device inside
the cabinet. Before cabinet delivery, related internal subscriber cable harnesses are installed according to
actual conditions.
When the F01T300 cabinet provides only fiber access, it is equipped with an optical
distribution frame (ODF).
For the PON service, the integrated splicing and termination unit (upstream: 12 cores,
SC/APC type; downstream: 192 cores (maximum configuration), SC/APC type)
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connects downstream optical cables to device-side optical fibers and connects
device-side optical fibers to upstream optical cables.
For the P2P service, the integrated splicing and termination unit (upstream: 12 cores,
LC/PC type; downstream: 336 cores (maximum configuration), LC/PC type) connects
downstream optical cables to device-side optical fibers and connects device-side optical
fibers to upstream optical cables.
Figure 8-10 shows appearance of the cable distribution compartment of the F01T300 cabinet
when the cabinet provides only fiber access.
Figure 8-10 Appearance of the cable distribution compartment (for PON access)
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Figure 8-11 Appearance of the cable distribution compartment (for P2P access)
8.3 MDF
8.3.1 JPX658-STO-236X Exchange Side Terminal Block
The JPX658-STO-236X exchange side terminal blocks are installed to connect the cables on
the MDF side and the jumper cables. The exchange side terminal blocks are also used for tests
and open circuits.
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Appearance
JPX658-STO-236X is a bar-type 16-pair exchange side terminal block. Its connecting clip
contact (point) is always connected. Figure 8-12 shows the appearance of the
JPX658-STO-236X exchange side terminal block.
Figure 8-12 Appearance of the JPX658-STO-236X exchange side terminal block
Specifications
Table 8-1 lists the specifications of the JPX658-STO-236X exchange side terminal block.
Table 8-1 Specifications of the JPX658-STO-236X exchange side terminal block
Item Specification
Range of the clamping core 0.4 mm to 0.6 mm
Dimensions (width x depth x
height)
150 mm x 59.8 mm x 13 mm
8.3.2 JPX658-FA8-239X Cable Side Terminal Block
The JPX658-FA8-239X cable side terminal blocks are installed to connect the external cables
and jumper cables on the MDF. The protective unit installed in the cable side terminal block
provides over-voltage and over-current protection, and generates alarms.
Appearance
JPX658-FA8-239X is a bar-type 10-pair cable side terminal block. Its connecting clip contact
(point) is always disconnected. Figure 8-13 shows the appearance of the JPX658-FA8-239X
cable side terminal block.
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Figure 8-13 Appearance of the JPX658-FA8-239X cable side terminal block
Specifications
Table 8-2 lists the specifications of the JPX658-FA8-239X cable side terminal block.
Table 8-2 Specifications of the JPX658-FA8-239X cable side terminal block
Item Specification
Range of the clamping core 0.4 mm to 0.6 mm
Dimensions (width x depth x
height)
150 mm x 59.8 mm x 15 mm
8.3.3 JPX658-FA10-97 Protective Unit
The JPX658-FA10-97 (semiconductor discharge tube) protective unit is mainly used on the
JPX658-FA8-239X cable side terminal block to provide over-voltage and over-current
protection and the over-current alarming function.
Appearance
The structure of the JPX658-FA10-97 protective unit is designed to ensure that the protective
unit is not inserted upside down. Figure 8-14 shows the appearance of the JPX658-FA10-97
protective unit.
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Figure 8-14 Appearance of the JPX658-FA10-97 protective unit
Specifications
Table 8-3 lists the specifications of the JPX658-FA10-97 protective unit.
Table 8-3 Specifications of the JPX658-FA10-97 protective unit
Item Specification Standards Compliance
Over-voltage protection
parts
Semiconductor discharge tube ITU/T Rec. K.28
Over-current protection
parts
Thermistor ITU/T Rec. K.30
DC breakdown voltage 342 V to 460 V@100 V/s -
Surge breakdown voltage ≤ 460 V@100 kV/s
≤ 500 V@1 kV/μs
-
Over-current action
characteristic
<2s@500 mA to 150 mA YD/T 694-2004
Failure alarm time ≤ 3 minutes@220 VAC, 50
Hz
YD/T 694-2004
Dimensions (width x
depth x height)
11 mm x 45.5 mm x 7 mm -
8.3.4 JPX658-BLK2-E10V Terminal Block
JPX658-BLK2-E10V is a three-in-one terminal block that can function as an exchange side
terminal block, cable side terminal block, or broadband terminal block. When used
independently, JPX658-BLK2-E10V functions as an exchange side terminal block. When
working with a protective unit that provides surge/over-voltage protection,
JPX658-BLK2-E10V functions as a cable side terminal block. It becomes a broadband
terminal block when working with a splitter that separates broadband signals from
narrowband signals.
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Appearance
JPX658-BLK2-E10V is a 10-pair terminal block and its connecting clip contact (point) is
always connected. Figure 8-15 shows the appearance of the JPX658-BLK2-E10V terminal
block.
Figure 8-15 Appearance of the JPX658-BLK2-E10V terminal block
Specifications
Table 8-4 lists the specifications of the JPX658-BLK2-E10V terminal block.
Table 8-4 Specifications of the JPX658-BLK2-E10V terminal block
Parameter Value
Diameter range of the clamping core 0.4 mm to 0.6 mm (insulation diameter ≤ 1.4
mm)
Dimensions (H x W x D) 13 mm x 150 mm x 39.6 mm
8.3.5 JPX658-SPD2-G400T Protective Unit
JPX658-SPD2-G400T, as a gas discharge tube (GDT) protective unit, is mainly used on a
JPX658-BLK2-E10V terminal block to provide over-voltage protection.
Appearance
The JPX658-SPD2-G400T protective unit is able to protect itself against upside-down
insertion. Figure 8-16 shows the appearance of the JPX658-SPD2-G400T protective unit.
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Figure 8-16 Appearance of the JPX658-SPD2-G400T protective unit
Specifications
Table 8-5 lists the specifications of the JPX658-SPD2-G400T protective unit.
Table 8-5 Specifications of the JPX658-SPD2-G400T protective unit
Parameter Value Standards Compliance
Over-voltage protection
component
GDT ITU/T Rec. K.12
DC breakdown voltage 350-500 V@100 V/s -
Insulation resistance ≥ 1000 megohms@100 V DC YD/T 694-2004 5.4.4; 6.4.2
Capacitance to the
ground
≤ 200 pF@1 MHz, 0.5 V YD/T 694-2004 5.4.16; 6.28
Surge breakdown voltage ≤ 800 V@100 V/µs
≤ 950 V@1000 V/µs
-
AC discharge 5 times@ 5 A applications
each line side, 3 min intervals,
50 Hz
YD/T 694-2004
Dimensions (H x W x D) 9.8 mm x 42.3 mm x 7.9 mm -
8.3.6 JPX658-FA9-280J Protective Unit
The JPX658-FA9-280J protective unit is used on the JPX658-FA8-239X cable side terminal
block. It protects the lower-layer switching devices from over-voltage.
Appearance
Figure 8-17 shows the appearance of the JPX658-FA9-280J protective unit.
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Figure 8-17 Appearance of the JPX658-FA9-280J protective unit
Specifications
Table 8-6 lists the specifications of the JPX658-FA9-280J protective unit.
Table 8-6 Specifications of the JPX658-FA9-280J protective unit
Parameter Value Standards Compliance
Over-voltage protection
component
GDT ITU/T Rec. K.12
DC breakdown voltage 380-500 V@100 V/s -
Insulation resistance ≥ 1000 megohms@100 V DC YD/T 694-2004
Capacitance to the
ground
≤ 200 pF@1 MHz YD/T 694-2004
Surge breakdown voltage ≤ 800 V@100 V/µs
≤ 950 V@1000 V/µs
-
AC discharge 5 times@ 5 A applications
each line side, 3 min intervals,
50 Hz
YD/T 694-2004
Dimensions (H x W x D) 11 mm x 45 mm x 7 mm -
8.3.7 JPX658 Short-Circuit Plug
A JPX658 short-circuit plug is installed on the JPX658-BLK2-E10VH cable distribution
module to short-circuit ports of external modules. It can short-circuit four slots on one port of
the JPX658-BLK2-E10VH cable distribution module.
Appearance
Figure 8-18 shows the appearance of the JPX658 short-circuit plug.
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Figure 8-18 Appearance of the JPX658 short-circuit plug
Specifications
Table 8-7 lists the specifications of the JPX658 short-circuit plug.
Table 8-7 Specifications of the JPX658 short-circuit plug
Parameter Value Standards Compliance
Insulation resistance ≥ 1000 megohms@100 V DC YD 694-2004
Through-current capacity 0.3 A -
Dimensions (H x W x D) 11.8 mm x 45.1 mm x 9.1 mm -
8.4 ODF
8.4.1 12-core Integrated Splicing and Termination Tray (Upstream)
A 12-core integrated splicing and termination tray connects optical fibers to optical
communication equipment.
The 12-core integrated splicing and termination tray provides the following functions:
Secures and protects optical fibers.
Protects peeled optical fibers.
Distributes optical fibers.
Adjusts optical fibers.
Stores optical fibers.
Appearance
Figure 8-19 shows the appearance of the 12-core integrated splicing and termination tray.
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Figure 8-19 Appearance of the 12-core integrated splicing and termination tray
Specifications
Table 8-8 lists the specifications of the 12-core integrated splicing and termination tray.
Table 8-8 Specifications of the 12-core integrated splicing and termination tray
Parameter Value
Model GPX147-FIM1101-12
Applicable adapter type FC, SC, and ST (default configuration: four
FC adapters)
Maximum line capacity 12 optical fibers
Dimensions (H x W x D) 25 mm x 232 mm x 200 mm
8.4.2 12-core Integrated Splicing and Termination Tray (Downstream)
A 12-core integrated splicing and termination tray connects optical fibers to optical
communication equipment.
The 12-core integrated splicing and termination tray provides the following functions:
Secures and protects optical fibers.
Protects peeled optical fibers.
Distributes optical fibers.
Adjusts optical fibers.
Stores optical fibers.
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Appearance
Figure 8-20 shows the appearance of the 12-core integrated splicing and termination tray.
Figure 8-20 Appearance of the 12-core integrated splicing and termination tray
Specifications
Table 8-8 lists the specifications of the 12-core integrated splicing and termination tray.
Table 8-9 Specifications of the 12-core integrated splicing and termination tray
Parameter Value
Model GPX147-FIM2107-12-G
Applicable adapter type PON access: SC/APC
P2P access: LC/PC
Maximum line capacity 12 optical fibers
Dimensions (H x W x D) 25 mm x 240 mm x 140 mm (without
mounting ears)
25 mm x 300 mm x 189 mm (with
mounting ears)
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8.4.3 32-core Integrated Splicing and Termination Tray (Downstream)
A 32-core integrated splicing and termination tray connects optical fibers to optical
communication equipment.
The 32-core integrated splicing and termination tray provides the following functions:
Secures and protects optical fibers.
Protects peeled optical fibers.
Distributes optical fibers.
Adjusts optical fibers.
Stores optical fibers.
Appearance
Figure 8-21 shows the appearance of the 32-core integrated splicing and termination tray.
Figure 8-21 Appearance of the 32-core integrated splicing and termination tray
Specifications
Table 8-10 lists the specifications of the 32-core integrated splicing and termination tray.
Table 8-10 Specifications of the 32-core integrated splicing and termination tray
Parameter Value
Model GPX147-FIU2101-32-LC/APC
Applicable adapter type LC/APC
Maximum line capacity 32 optical fibers
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Product Description 8 Cable Distribution System
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Parameter Value
Dimensions (H x W x D) 43.6 mm x 430 mm x 260 mm
(rack-mounting ears not included)
F01T300
Product Description 9 Specifications
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9 Specifications
This topic provides the dimensions, weight, and power consumption of the F01T300 cabinet.
Dimensions
Table 9-1 lists the dimensions of the F01T300 cabinet.
Table 9-1 Dimensions of the F01T300 cabinet
Item Dimensions (W x D x H)
F01T300 cabinet 850 mm x 450 mm x 1350 mm
Equipment compartment 630 mm x 325 mm x 950 mm
Available space inside the equipment compartment Width: 19 inches
Depth: 315 mm
Height: 16 U
Available space inside the battery compartment 575 mm x 425 mm x 305 mm
Available space inside the cable distribution
compartment
200 mm x 450 mm x 1300 mm
Terminal block Height: 2 x 1100 mm
In Table 9-1, 1 U = 44.45 mm and 1 inch = 25.4 mm.
Weight
Table 9-2 lists the weight of the F01T300 cabinet.
Table 9-2 Weight of the F01T300 cabinet
Item Weight
Empty cabinet 125 kg
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Item Weight
Fully-loaded cabinet (excluding batteries) 185 kg
Fully-loaded cabinet (including batteries) 325 kg
Power Supply
Table 9-3 and Table 9-4 list the power supply mode and heat dissipation requirement.
Table 9-3 Power supply of an F01T300 cabinet configured with an ETP4830/ETP4890 power
system
Item Specifications
Power supply mode AC power supply
Range of input voltage 200 V to 240 V
Rated input frequency 50 or 60 Hz
Maximum output current 21 A
Table 9-4 Power supply of an F01T300 cabinet configured with an RPS system
Item Specifications
Power supply mode Remote power supply
Range of input voltage ±190 V DC
Maximum output current 0.25 A per channel
Maximum available channel 24
Heat Dissipation
Table 9-5 lists the heat dissipation requirements of the F01T300 cabinet.
Table 9-5 Heat dissipation requirements of the F01T300 cabinet
Item Value
Heat dissipation mode Using the heat exchanger
Operating temperature –33°C to +45°C (with solar radiation)
Maximum heat dissipation
capability of the entire cabinet
1500 W/45℃ + 1120 W/m2 (with solar radiation)
1000 W/50℃ + 1120 W/m2 (with solar radiation)
F01T300
Product Description 9 Specifications
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Power Consumption
Table 9-6 lists the power consumption parameters of an F01T300 cabinet.
Table 9-6 Power consumption parameters of the F01T300 cabinet
Item Value Power Supply Mode
Maximum power consumption of
the intelligent heating modules in
the battery compartment
500 W AC power supply
Maximum power consumption of
the intelligent heating modules in
the equipment compartment
500 W AC power supply
Maximum power consumption of
the heat exchanger (including the
internal and external circulation
fans)
196 W AC power supply or remote
power supply
Power consumption of the
illuminator
1.5 W AC power supply or remote
power supply
Maximum power consumption of
CCU
10 W AC power supply or remote
power supply
F01T300
Product Description 10 Environmental Requirements
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10 Environmental Requirements
This topic describes the environmental requirements for the storage, transportation, and
running of the cabinet.
Table 10-1 lists the environmental requirements for the storage, transportation, and running of
the cabinet.
Table 10-1 Environmental requirements for the storage, transportation, and running of the cabinet
Environment Item Specification
Storage Temperature –45°C to +70°C
Solar radiation intensity ≤ 1120 W/m2
Relative humidity 8% to 100%
Atmospheric pressure 61 kPa to 106 kPa
Transportation Temperature –40°C to +70°C
Solar radiation intensity ≤ 1120 W/m2
Relative humidity (without drastic
variation in temperature)
95% (+45°C)
Relative humidity (with drastic variation
in temperature: air/air)
95% (–40°C to +30°C)
Atmospheric pressure ≥ 70 kPa
Running Temperature –33°C to +45°C (with solar
radiation)
Solar radiation intensity ≤ 1120 W/m2
Relative humidity 8% to 100%
Atmospheric pressure 61 kPa to 106 kPa
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Product Description 10 Environmental Requirements
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At an altitude from 0 m to 600 m, the running temperature of the device remains unchanged. At an
altitude from 600 m to 4000 m, the running temperature of the device decreases by 1ºC as the altitude
increases by 200 m, and the decreased temperature is rounded up.
F01T300
Product Description 11 Standards Compliance
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11 Standards Compliance
This topic provides the standards that the cabinet complies with in terms of environment,
structure, and lightning protection.
Table 11-1 lists the standards that the cabinet complies with.
Table 11-1 Standards that the cabinet complies with
Item Standards Compliance Level
Environment ETSI 300 019-1-4: Environmental conditions and
environmental test for telecommunications
equipment; Part 1-4: Classification of
environmental conditions; Stationary use at
non-weather protected locations
Class 4.1 requirement
can meet all ETSI
countries
environmental
requirement
ETSI 300 019-1-2: Environmental conditions and
environmental test for telecommunications
equipment; Part 1-2: Classification of
environmental conditions; Transportation
Class 2.3 Public
transportation
ETSI 300 019-1-1: Environmental conditions and
environmental tests for telecommunications
equipment; Part 2-1: Classification of
environmental conditions; Storage
Class 1.3 E
non-weather protected
storage locations
extended
Lightning
protection&
EMC
ETSI EN 300 386: Electromagnetic compatibility
and Radio spectrum Matters (ERM);
Telecommunication network equipment; Electro
Magnetic Compatibility (EMC) requirements
non-telecom central
equipment
EN 55022: Information technology equipment –
Radio disturbance characteristics – Limits and
methods of measurement
Class B
EN 55024: Information technology equipment –
Immunity characteristics – Limits and methods of
measurement
-
K.45: Resistibility of telecommunication
equipment installed in the access and trunk
networks to over-voltages and over-currents
-
F01T300
Product Description 11 Standards Compliance
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Item Standards Compliance Level
IEC 61643: Performance requirement for surge
protective device connected to low-voltage
distribution systems of telecommunication
stations/sites
-
Safety IEC/EN60950-1: Information technology
equipment-Safety-Part 1: General
requirements
IEC/EN60950-22: Information technology
equipment-Safety-Part 22: Equipment to be
installed outdoors
IEC/EN60950-21: Information technology
equipment-Safety-Part 21: Remote Power
Feeding
-
Protection IEC 60529: Degrees of protection provided by
enclosures (IP Code)
IP55
Structure IEC 60297-1: Panels and racks IEC 60297-3
subracks and associated plug-in units IEC
60297-2 Cabinets and Pitches of racks
structure
IEC 60297-2: Cabinets and Pitches of racks
structure
-
Grounding K.35: Bonding configurations and grounding at
remote electronic sites
-
F01T300
Product Description A Acronyms and Abbreviations
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A Acronyms and Abbreviations
A
AC Alternating Current
ADSL Asymmetrical Digital Subscriber Line
D
DC Direct Current
E
EMC Electromagnetic Compatibility
EMI Electromagnetic Interference
EMS Electromagnetic Shield
EMU Environment Monitoring Unit
EN End Node
ETS European Telecommunication Standards
ETSI European Telecommunications Standards Institute
I
IDC Internet Data Center
IEC International Electrotechnical Commission
IEEE Institute of Electrical and Electronics Engineers
IP Internet Protocol
ISDN Integrated Services Digital Network
ITU-T International Telecommunication Union - Telecommunication
Standardization Sector
F01T300
Product Description A Acronyms and Abbreviations
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M
MDF Main Distribution Frame
O
ODF Optical Distribution Frame
P
POTS Plain Old Telephone Service
PSTN Public Switched Telephone Network
PWM pulse-width modulation
VDSL Very high data rate Digital Subscriber Line